Litcius/Paper detail

Strain sensing in GFRP via fully integrated carbon nanotube epoxy film sensors

Christina Buggisch, Dennis Gibhardt, Nils Felmet, Yannick Tetzner, Bodo Fiedler

2021Composites Part C Open Access15 citationsDOIOpen Access PDF

Abstract

Structural health monitoring of composite structures enables early damage detection to prevent critical component failure. Surface-mounted strain gauges are commonly applied to monitor the integrity of composite structures in highly loaded areas. However, strain gauges can only measure strain on the structure’s surface and are exposed to environmental influences. Within this paper, fully integrated carbon nanotube thin-film sensors for strain and damage sensing in glass fibre reinforced polymers (GFRP) via electrical resistance measurements are presented. Single wall carbon nanotube epoxy thin-films were manufactured using a manual film applicator, partially pre-cured, placed on dry glass fabrics and infused in a resin transfer moulding process. The mechanical properties of the composites and strain sensing capabilities of the integrated sensors were studied for various load cases and different laminate lay-ups. Results of quasi-static and step-wise three-point bending and tensile tests show that the integrated films allow for localised strain measurements in GFRP without significant loss of mechanical properties. Open hole tensile tests proof the ability to monitor local strain and damage in highly loaded areas enabling failure prediction via threshold resistance change values. The proposed thin-films enable a tailored strain and damage monitoring of GFRP offering the possibility for measurements at different material depths, over large sections or selectively in highly loaded areas. The manufacturing process is easily automatable and suitable for large scale manufacturing.

Topics & Concepts

Materials scienceComposite materialFibre-reinforced plasticStrain gaugeEpoxyCarbon nanotubeUltimate tensile strengthComposite numberBendingGlass fiberPolymerStructural health monitoringStrain (injury)Internal medicineMedicineSmart Materials for ConstructionConcrete Corrosion and DurabilityAdvanced Sensor and Energy Harvesting Materials